Mixed Metal Complexes as Enzyme Models. I. Intracomplex

Yasuhiro NishikawaKohei TakemotoKana MatsudaRisa TanakaAkira ArashimaKanako ItoYuki KamezawaYuna HoriOsamu Hara. Organic Letters 2018 Article ...
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chart I

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participate directly in the formation of 11. Clearly the presence of benzophenone is not essential, for the carbinol I1 could be obtained in good yield (>70%) merely by treating allyldiphenylcarbinol in ether with 2 equiv. of allylmagnesium bromide (25" for 36 hr.). (Incidentally, I11 was shown not to add allylmagnesium bromide.) There is no reasonable doubt, therefore, that allylmagnesium bromide can add to the unconjugated, unactivated ethylenic linkage of the magnesium carbinolate salt of I. As a working hypothesis for further synthetic and mechanistic studies of this reaction, we suggest that this addition is facilitated by the intramolecular proximity of the reacting bonds. When allyldiphenylcarbinol is treated with the allyl Grignard reagent, it is reasonable to assume that the presence of diallylmagnesium in the latters would lead to the production of intermediate V. Inspection of a Stuart-Briegleb model of V reveals that the allyl-magnesium bond (a) can easily become contiguous to the vinyl bond (b) of the carbinolate. Further research will probe the generality of this reaction by use of other unsaturated carbinols and amines, as well as a variety of organometallic reagents.

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Mixed Metal Complexes as Enzyme Models. I. Intracomplex Nucleophilic Catalysis by an Oxime Anion Sir : Studies on esterolytic enzymes and peptidases have proceeded to the point that a general mechanism of their action may be described: acyl transfer occurs to a nucleophilic group of the enzyme within an enzymesubstrate complex, and the acyl group is then hydrolytically removed in a second step. The hope of utilizing such principles to achieve rapid and selective organic reactions has stimulated the construction of various enzyme model systems. We have considered that catalysis by attack of one ligand on another within a mixed metal complex could include the strong catalystsubstrate binding which is a key feature of enzymatic catalysis; furthermore, such enzymes as (zinc-containing) carboxypeptidase use metal bridging between protein and substrate for at least part of the ES binding energy. The problem of providing a strong free nucleophile in a metal complex has been solved by utilizing zinc pyridinecarboxaldoxime anion (1).1 We wish to report that I is indeed a particularly effective nucleophilic catalyst in the hydrolysis of 8-acetoxyquinoline 5-sulfonate (11), a weakly complexing substrate, by a two-step mechanism involving acyl transfer within a catalyst-substrate complex. Models show Table I. Equilibria of PCA with Z n 2 + a

v Acknowledgment. The authors wish to express their appreciation to the donors of the Petroleum Research Fund for their support of this research by PRF Grant No. 723-A, both at the University of Michigan and The Catholic University of America. (ti) G. 0. Johnson and H. Adkins, J. Am. Chem. SOC..54,1943 (1932). John J. Eisch, G. Ronald Husk Department of Chemistry, The Catholic University of America Washington 17, D. C. Received July 19, 1965

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HA H+ AHA Zn2+ e ZnAH2+ AZna+$ZnA+ ZnAH2+ ZnA+ H+ HA Zn2+e ZnA+ H+ ZnA(HzO)+& ZnA(0H) H+

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K, M (9.1 f 0.9) x lo-" 150 f 15 (5.0 f 1.2) X 105 (3.0 i 0.7) X 10-7 (4.5 i 1.0) x 10-6 (1.8 2~ 0.4) X 1 0 - 8

HA = neutral PCA molecule.

(1) C' S. Balton and A. Beckett, J. Pharm. SOC.,53,55 (1964). (2) E. J. Corey and R. L. Dawson, J. Am. Chem. SOC.,84, 4899 (1962), report metal-catalyzed hydrolyses of 8-~~bamoylquinolines. Compound I1 was prepared by acetylation and fuUy characterized, Spectrophotometric studies show that K,for Zn2+ and I1 is